An efficient and secure anonymous authentication framework with location privacy preservation for IoT-based WBANs

An efficient and secure anonymous authentication framework with location privacy preservation for IoT-based WBANs

Neethu K.P ^1,* , Kalaiselvi R ²

¹ ME Student, Department of CSE, Noorul Islam Centre for Higher Education, Kumaracoil

² Associate professor(Kalaiselvi R), Department of CSE, Noorul Islam Centre for Higher Education, Kumaracoil

Abstract— Advances in wireless communications, embedded systems, and integrated circuit technologies have enabled the wireless body area network (WBAN) to become a promising networking paradigm. Over the last decade, as an important part of the Internet of Things, we have witnessed WBANs playing an increasing role in modern medical systems because of its capabilities to collect real-time biomedical data through intelligent medical sensors in or around the patients' body and send the collected data to remote medical personnel for clinical diagnostics. WBANs not only bring us conveniences but also bring along the challenge of keeping data's confidentiality and preserving patients' privacy. In the previous, anonymous authentication (AA) schemes for WBANs were proposed to enhance security by protecting patients' identities and by encrypting medical data. However, many of these schemes are not secure enough. The AA scheme for WBANs and point out that it is not secure for medical applications by proposing an impersonation attack. In this project, propose a genetic-based algorithm (GBA) with secure anonymous authentication framework for WBANs and prove that it is provably secure. The comprehensive analysis section shows that the proposed scheme overcomes the security weaknesses in the existing schemes and also provides low computation cost during anonymous authentication.

       Keywords—: Cross-modality, contrast enhancement, 2D histogram specification (HS), SSIM gradient, tumor segmentation.